         Fundamentals of Quantum Computing and Quantum Physics培训

Introduction

Overview of Quantum Physics Theories Applied in Quantum Computing

Fundamentals of quantum superposition
Fundamentals of quantum entanglement
Mathematical foundations of quantum computing
Overview of Quantum Computing

Differentiating quantum computing and classical electronic computing
Integrating quantum behaviors into quantum computing
The Qubit
Implementing the Dirac notation
Computational basis measurements in quantum computing
Quantum circuits and quantum oracles
Working with Vectors and Matrices in Quantum Computing

Matrix multiplication using quantum physics
Conventions of tensor products
Applying Advanced Matrix Concepts to Quantum Computing

Overview of Quantum Computers and Quantum Simulators

The quantum hardware and its components
Running a quantum simulator
Executable quantum mechanisms in a quantum simulation
Performing quantum computations in a quantum computer
Working with Quantum Computing Models

Logic and functions of different quantum gates
Understanding superposition and entanglement effects on quantum gates
Utilizing Shor's Algorithm and Quantum Computing Cryptography

Implementing Grover's Algorithm in Quantum Computing

Estimating a Quantum Phase in a Quantum Computer

The quantum Fourier transform
Writing Basic Quantum Computing Algorithms and Programs for a Quantum Computer

Utilizing the right tools and language for quantum computing
Setting up quantum circuits and specifying quantum gates
Compiling and Running Quantum Algorithms and Programs in a Quantum Computer

Testing and Debugging Quantum Algorithms and Quantum Computer Programs

Identifying and Correcting Algorithm Errors Using Quantum Error Correction (QEC)

Overview of Quantum Computing Hardware and Architecture

Integrating Quantum Algorithms and Programs with the Quantum Hardware

Troubleshooting

Advancing Quantum Computing for Future Quantum Information Science Applications

Summary and Conclusion